Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Productivity Improvement by Reduction of Rejections in Grid Casting Using Six Sigma Methodology


Affiliations
1 S. V. University College of Engineering, Tirupathi, India
     

   Subscribe/Renew Journal


The core and the heart of the battery industry is Grid. This paper discusses about the quality and productivity improvement by reducing the rejections in Grid casting section in one of the Battery manufacturing Multinational companies. The quality improvement would be attained by sigma methodology’s DMAIC approach. It depicts reducing rejections in Grids from grid casting machine. Data collection and Pareto analysis indicated the high rejections are due to flashes and wire miss. The ischolar_main causes are found out by six sigma using Variable search tool and validated by Better Vs Current Tool. By the results of DMAIC, Modifications are carried out in grid casting methodology and the process parameters optimized. This resulted in reducing the rejections from 9.5 % to 2.1 % and average improvement of grid caster’s productivity. To confirm whether Six Sigma implementation would be simplified, this paper highlights usage of Shainin DOE instead of Taguchi DOE.

Keywords

Six Sigma, DMAIC, Pareto Analysis, Shainin DOE, Variable Search, Better Vs Current Tool.
User
Subscription Login to verify subscription
Notifications
Font Size

  • Bewoor, Anand K; Pawar, Marut S: Use of shainin tools for simplifying six sigma implementation in qms/iso certified environment – An indian sme case study, 'Journal of Engineering Research and Studies', vol. 1, no. 2, Oct - Dec, 2010, 177-194.
  • Kabir, Md. Enamul; Boby, S M Mahbubul Islam; Lutfi, Mostafa: Productivity Improvement by using Six-Sigma, 'International Journal of Engineering and Technology', vol. 3 no. 12, December, 2013.
  • Valles, Adan; Sanchez, Jaime; Noriega, Salvador; Nuñez, Berenice Gómez: Implementation of Six Sigma in a Manufacturing Process A Case Study, 'International journal of industrial engineering', vol. 16, no. 3, 2009, 171-181.
  • Pugnaa, Adrian; Negrea, Romeo; Miclea, Serban: Using Six Sigma Methodology to Improve the Assembly Process in an Automotive Company, 'Procedia - Social and Behavioral Sciences', vol. 221, 2016, 308 - 316,
  • Srinivasan, K; Muthu, S; Prasad, NK; Satheesh, G: Reduction of paint line defects in shock absorber through Six Sigma DMAIC phases, 'Procedia Engineering', vol. 97, 2014, 1755 - 1764 ,
  • Ledolter, J; Swersey: Dorian Shainin’s Variables Search Procedure: A Critical Assessment, 'Journal of Quality Technology', vol. 29, no. 3, 1997, 237-247.
  • Montgomery DC: Hand book of Design and Analysis of Experiments, 5th Edition, John Wiley and Sons, New York, 2001.
  • Gitlow, Howard S: A guide to lean six sigma Management, 2nd edition, 2009.
  • Pyzdek, Thomas: The Six sigma Handbook: (A complete guide for six sigma Green belts and Black belt’s), 4th edition, 2014

Abstract Views: 312

PDF Views: 5




  • Productivity Improvement by Reduction of Rejections in Grid Casting Using Six Sigma Methodology

Abstract Views: 312  |  PDF Views: 5

Authors

G. Evangelin Paul
S. V. University College of Engineering, Tirupathi, India
P. Hema
S. V. University College of Engineering, Tirupathi, India
K. Venkata Muni
S. V. University College of Engineering, Tirupathi, India
K. Aruna
S. V. University College of Engineering, Tirupathi, India

Abstract


The core and the heart of the battery industry is Grid. This paper discusses about the quality and productivity improvement by reducing the rejections in Grid casting section in one of the Battery manufacturing Multinational companies. The quality improvement would be attained by sigma methodology’s DMAIC approach. It depicts reducing rejections in Grids from grid casting machine. Data collection and Pareto analysis indicated the high rejections are due to flashes and wire miss. The ischolar_main causes are found out by six sigma using Variable search tool and validated by Better Vs Current Tool. By the results of DMAIC, Modifications are carried out in grid casting methodology and the process parameters optimized. This resulted in reducing the rejections from 9.5 % to 2.1 % and average improvement of grid caster’s productivity. To confirm whether Six Sigma implementation would be simplified, this paper highlights usage of Shainin DOE instead of Taguchi DOE.

Keywords


Six Sigma, DMAIC, Pareto Analysis, Shainin DOE, Variable Search, Better Vs Current Tool.

References